Planter



"4 Sunnis-sheet 2 INVENTOR:` CHARLES H. WHITE c H WHITE PLANTER Filed July 8, 1940 June 22, 1943.

" lllllll/ ATTORNEYS.

Y June 22, "1943. c. H. WHITE 2,322,332

PLANTER Filed July s, 1940 4 sheets-sheet s INVENTOR: CHARLES H.A HITE June 22, 1943. `c. H. wHn-E PLANTER Filed July 8, 1940 4 Sheets-Sheet 4 FIG. 6"

IN VEN TOR:

CHARLES H. HITE ATTORNEYS.l

Patented June 22, 1943 UNHTED PLANTER Charles H. White, Moline, Ill., assigner to Deere 8.', Company, Moline, Ill., a corporation of Illinois Application July 8, 1940, Serial No. 344,310

12 Claims.

The present invention relates generally to agricultural machines and is more particularly concerned with a planting implement of the socalled integral type, wherein the tractor serves as the supporting frame for the furrow openers and associated parts.

The object and general nature of the present invention is the provision of an agricultural machine especially adapted tov be connected to a tractor and embodying a cross shaft to which a pair of draft frames are connected at their forward ends, the draft frames connected at their rear ends to the rear axle housing of the tractor. This provides an exceptionally strong and sturdy frame construction which adequately sustains the stresses encountered when operating in difcult soil conditions.

Another feature of this invention is the provision of a planter of the integral type. embodying generally vertically shiftable tool beams which are guided by a sector and one or more rollers associated therewith, with means whereby the roller or rollers may be adjusted to determine the proper position of each tool beam and the sector is arranged to take load reactions. A further feature of this invention is the provision of means whereby the sector and rollers determine the lateral position of the tool beam and may be adjusted to secure various row spacings.

Another feature of the present invention is the provision of means for raising and lowering each tool beam with which is associated spring yielding means permitting the depth adjusting part to be moved into the desired position and stressing the spring means so that the latter acts when the implement moves forwardly to force the tool or tools down into the position determined by the depth adjusting part.

A further feature of this invention is the provision of a rigid draft frame construction which comprises a cross bar fixed to the tractor and a pair of draft frames fixed to the cross bar and to the rear axle housing, in connection with separate means for supporting the planting and/or fertilizer distributing units on the tractor, each draft frame adjustably carrying planter and fertilizer furrow openers.

Still further, another feature of this invention is the provision of means whereby a covering frame may be floatingly connected with the tool beam but lifted with the latter when the tool beam is raised into inoperative position.

These and other objects and advantages of the present invention will be apparent to those skilled in the art after a consideration of the following detailed description of the preferred structural embodiment, taken in conjunction with the accompanying drawings in which theA preferred structural embodiment has been illustrated.

In the drawings:

Figure 1 is a side view of an agricultural machine in which the principles of the present invention have been incorporated;

Figure 2 is a perspective View, taken on an enlarged scale, of the left-hand tool beam, draft frame and associated parts, with the fertilizer unit omitted;

Figure 3 is a sectional view taken generally along the line 3--3 of Figure 2, showing the connections between the hand lever and the sector which raises and lowers the tool beam;

Figure 4 is a View similar to Figure 3 but showing the position of the parts when the hand lever has been moved into an operating position with the machine stationary and the associated ground working tool not yet in its operating position;

Figure 5 is a section taken generally along the line 5--5 of Figure 4, showing the support of the depth adjusting lever on the sector shaft operating arm;

Figure 6 is a section taken generally along the line 6--6 of Figure 2; and

Figure 7 is a fragmentary side view, showing the fertilizer furrow opener and the fertilizer spout shield.

Referring now to the drawings, more particularly to Figures 1 and 2, the present invention is shown as incorporated in an agricultural machine which includes a tractor i serving as supporting frame means and a tool carrying implement 2 with which planting and fertilizing units 3 and 4, preferably supported on the tractor I, are operatively associated.

The tractor I is of more or less conventional construction, embodying a frame 6 supported at its forward end on front steering wheels and. at its rear end, connected to or including a rear axie housing -8 (Figure 2) which is provided with laterally outwardly extending axle housing sections 9 (Figure 1) and Il) (Figure 2). As best shown in the latter figure, each rear axle housing extension is provided with tapped attachment lugs I2, I3 and I4 which form convenient means for securing implement parts to the tractor. Axle shafts I6 and I'l are journaled in the axle housing extensions 9 and IG and are arranged to be driven by the tractor motor I8 in the usual way.

The frame of the implement 2 is indicated in its entirety by the reference numeral 29 and includes a transversely disposed cross bar 2 l, whichY is preferably of flat stock and having a length such as when the cross bar 2l is disposed transversely of the tractor it extends laterally outwardly beyond the body of the tractor, as indicated at 23 and 24. The cross bar 2| is fixed to the sides of the tractor frame by a pair of clips 26 formed so that one end of each clip may be bolted, as at 21, to a bracket on the tractor and the other end may be bolted, as at 29, to the cross bar, all as best shown in Figure 2.

A pair of draft frames 3| (Figure l) and 32 (Figure 2) are connected between the ends 23 and 24 of the cross bar 2| and the rear axle housing extensions 9 and Hl. Each draft frame includes a bar 35 (Figure 2) which at its forward end 3S is bent laterally inwardly and at its rear end is bent, as at 31, so as to extend along the associated rear axle housing extension. The rear section 31 is apertured to receive a pairV of cap screws 38 and 39 which thread into tapped openings in the attaching bosses l2 and I3. Each frame also includes a second strap member 4I which at its forward end is bent, as at 42, and at its rear end 43 is bent so as to extend laterally outwardly alongside the inner portion of the :l

frame section 31. The end 43 is apertured to receive the cap screw 39, and the laterally inwardly directed end 36 and the laterally outwardly directed end 42 of the strap-members 35 and 4| are each apertured to receive bolts 43 and 44 which extend through suitable apertures in the associated end of the cross bar 2|, Thus, when the cap screws 38 and 39, and the bolts 43 and 44, are tightened, each draft frame forms a rigid connection between the laterally outer end of the cross bar 2| and the rear axle housing. Welded or otherwise fixed to the draft frame member 35 is an inverted U-shaped bracket 48, and a companion inverted U-shaped bracket 49 is secured as by welding or otherwise to the draft frame member 4I. The upper portions of the brackets 48 and 49 are maintained in the desired laterally spaced relation by a spacing bolt 5|. This bolt is provided with a shoulder 52 and an adjacent threaded end which extends through an aperture in the bracket 49 and receives a nut by which the bracket 49 may be clamped firmly against the shoulder 52. At its other end the spacing bolt 5| is threaded and extends through an aperture in the outer bracket 48. The outer threaded end of the spacing bolt 5| receives a pair of lock nuts, represented by the nut v53 in Figure 2, one on each side of the bracket 48, whereby the spacing between the brackets 48 and 49 may be adjusted or fixed as desired. The draft frames 3| and 32 are substantially identical, except that certain parts mav be right-hand and other parts may be left-hand, and hence the description of one will sufiice. Each draft frame includes suitable guiding and adjusting mechanism for the associated tools which will be described below.

The implement frame 2f! forms a strong and sturdy support for a variety of tools which may be carried thereby. the principles of the present invention. I have shown in the drawings a sweep type cotton and corn planter, in which the ground Working tools are sweeps which are mounted on or carried by generally vertically reciprocable tool beams or In order to best illustrate F shanks connected, respectively, with the draft frames 3| and 32, described above, but it will be understood that my invention is not limited to tools or implements of the sweep type.

At each side of the tractor l a ground working tool, such as a sweep 69, is fastened by a bolt 5| or other suitable means to a pair of conventional friction trip plates 62 pivoted to the lower end of a vertically reciprocable toolshank or tool beam 63. As best shown in Figure 2, each tool beam 63 includes a pair of laterally spaced apart bars 54 and 65 disposed on opposite sides of an intermediate bar 65. Heavy rivets 61, or any other suitable means` may be utilized for fixing the bars S4, 85 and 93 together. It will be noted that the inner bar 93 is more narrow than the outer bars G4 and 85 so that each vertically reciprocable tool beam presents forwardly and rearwardly directed edges, as indicated at 1| and l2, respectively, with a groove or channel therebetween. as indicated at i3 and 14. For guiding each tool beam in its generally vertical movements, each draft frame 3| and 32 carries a pair of forward rollers 1B. As best shown lin Figure 6, each roller 19 includes a central flange 18 and bearing shoulders 19 and 89 on opposite sides thereof. V,The bearing shoulders 19 and 89 receive the forward edges 1| of the associated tool beam, as best shown in Figure 2. Each rollerv 13 is journaled for rotation on an eccentrically mounted adjusting shaft 82 and is held in position thereon by a pair of collars 83. The collars are held against rotation by pins 84 disposed in suitable openings 85 in the shaft H2. The fia-nge 18 on each of the two rollers associated with each tool beam seat 'far enough in the channel or groove 13 of the associated tool beam so that the rollers serve to prevent the tool beam from shifting laterally relative to the associated draft frame. The lateral position of the tool beam may be varied by removing the pins 84 and shifting the rollers and collars vto a new position, reinserting the pins 84 in other holes 35. Each tool beam is held up against the associated rollers 18 by means which will be described below.

Each of the shafts 82 associated with each draft frame is eccentrically mounted on the draft frame so as to provide for adjusting the position of the tool beam and taking up any wear or looseness in the parts. The upper shaft 82, as best shown in Figure 6, has outer threaded ends 88 and 89 which are coaxial with respect to the general axis of the shaft 82, and between each threaded end and the main body of the shaft 82 is an eccentric section 9|.

The two brackets 48 and 49 of the associated draft frame are provided with openings 92 adapted to receive the eccentricv sections 9|, and nuts 93 are threaded onto the ends 88 and 89 of the/shaft 82. The eccentric sections 9| do not extend all the way through the bracket openings 92, whereby when the nuts 93 are tightened the shaft 82 is held firmly and rigidly against rotation. However, the shaft 82 at one end is provided with a squared section 96,

A and when the nuts 93 are loosened, the shaft 82 f and hence a further description is not necessary.

Each of the draft frames 3| and 32 carries means for raising and lowering the associated tool beam B3. According to the present invention, the opposite side bars 35 and 4| of each unit are apertured to receive the rounded end portions and |02 of a shaft |03, the major portion of which is square in cross section. The rounded or cylindrical portions |0| and |02 project slightly beyond the adjacent surfaces of the draft frame members so that when the nuts |04 are tightened to secure the shaft |03 against lateral displacement, the shaft is nevertheless free to rotate in its bearing support. The cylindrical section |0| is of greater axial extent than the companion cylindrical portion |02 so as to receive. the inner apertured end of a hand lever |01. The lever |01 carries the usual detent latch which cooperates with a sector |08 that is fixed to the inner draft member 4| and to the inner guide bracket 49. A brace |09 is fixed at its upper end, as by welding or the like, to the lever |01 above the sector |08 and is formed so as to extend laterally outwardly therefrom, as indicated at l0, and then downwardly alongside the lower end of the lever |01, generally in parallelism therewith, as indicated at I2. This portion terminates in an apertured section i3 which embraces the hub portion I4 of an arm ISf preferably in the form of a casting which is mounted on and secured to the square portion of the shaft |03 so as to form a part thereof. The arm HE has an abutment extension ||1 which lies alongside the lower end of the hand lever |01 and is movable relative thereto between stops which are dened by a bracket H0 provided with downturned ends and |2|. Preferably, the bracket I|9 is welded tc the lever |01. The arm |6 also includes a lug |23 disposed at an angle to the extension |1 and at its outer end receives the lower end of a spring |24, the upper end of which is adjustably connected. as by a bolt |25. to the lateral section ||0 of the brace |09. The effect of the spring |24 is to hold the arm l l5 and hand lever |01 against relative movement. with the extension l1 of the arm l@ normallv against the stop |20. Normally. thereforeJ when the hand lever |31 is moved forwardly, or in a counterclockwise direction as viewed in Figure 3, the spring tension causes the shaft |03 to move through the same angular distance. When the lever |01 is moved in a clockwise direction. the stop |20 engages directly the arm section ||1 so that this movement of the hand lever |01 oncasions the same movement of the shaft H33.

The latter mentioned movement is made use of to raise the associated tool bar and the counterclockwise movement of the hand lever |01 and shaft |03 (Figure 3) is made of to lower the tool beam. To this endA a sector casting |21 provided with a square hub- |20, is mounted on and clamped firmly to the square shaft |23. and is provided with a set of teeth |29 which are adapted to mesh with teeth |30 formed in the adjacent portion of the rear edge of the intermediate or spacing member 55 of the associated tool beam 63. Also, as best shown in Figure 5. the sector |21 is provided with shoulders I3! on opposite sides of and disposed radially inwardly of the teeth |29. The shoulders |3| are adapted to engage the rear edges 12 of the tool beam members 64 and 55, and from Figures l and 3, it will be seen that the sector |21 is disposed substantially directly rearwardly of the lower guide roller 16. As will be readily understood. the eccentric adjusting shaft 82 for the lower guide.

roller 83 may be readily adjusted to cause the lower roller 16 to bear snugly against the forward edge of the tool beam S3 and to cause the rear edge of the latter to bear snugly against the sector |21, yet have adequate freedom ofv movement to be raised or lowered by the lever |01, as desired. The spacing bolt 5| serves to hold the upper end of the tool oar against the upper roller 16 against any tendency for the upper end of the tool beam to move away.

Preferably, the parts are so arranged that the hand lever |01 stands in about the position shown in Figure 3 when the sweeps 60 `are right at the top surface of the ground. As mentioned above, moving the hand lever ||i1 rearwardly will raise the associated tool beam into its inoperative position. Moving the hand lever |01 forwardly from the position shown in Figure 3 will force the tool 60 down into the ground, providing the outnt is moving or if -the ground is soft enough to permit the tool to be forced directly downwardly. If, however, this is not the case, moving the hand lever |01 forwardly from the position shown in Figure 3 to the position shown in Figure 4 serves only to stretch the spring |245. However, the bias imparted to the spring is exerted continuously against the associated tool beam, with the result that when the outfit does start up or when the stretch of hard ground is passed, the tool (i0 will be immediately forced into the ground without further attention on the part of the operator. Thus, the springs |24 serve the very useful purpose of cushioning the tool beams and providing a yielding means for forcing the tools into the ground and permitting them momentarily to rise if it should occur that hard ground is encountered. If there were direct connections between the tool beams and the lifting mechanism, and if a stretch of hard ground or some obstruction to the proper Denetration of the tools were encountered, it is not unlikely that some parts might be broken if a yielding cushioning mechanism, such as I have shown and described, is not employed. Thus, in the present implement, the springs |24 serve to protect the teeth |29 and |30 against breakage. Also, the implement may be adjusted for any depth of operation without requiring that the tools be actually forced that far into the ground.

The implement described above is particularly adapted for sweep planters. Accordingly, I prefer to mount on the tractor planting and fertilizing means arranged to deposit seed and fertilizer. and preferably such planting and fertilizing means may be constructed along the lines of the planting and fertilizing means shown in my prior Patent No. 2,210,994, dated August 13, 1940, to which reference may be had if necessary. Briefly, the planting unit at each side of the tractor includes a seed hopper |35 supported on a base or other suitable means, as indicated at |35. The base or support |36 is provided with a pair of arms |31 connected with or forming a part of a gear case |38 which is bolted on the upper laterally inturned ends of a pair of arms |4| which form a part of a bracket |42 secured, as by cap screws M3, to the tractor' attaching lugs, as suggested in said prior potent. The planter unit base |36 includes seed selecting and feeding mechanism driven by a chain |40 from a sprocket |41 that is detachably mounted on the adjacent axle shaft l1 (Figure 2). As'best shown in Figure 1, the unit 3 at the right side of the tractor is of substantially the same construction and is also driven by a chain |46 carried around a sprocket |41 fixed to the adjacent axle I6.

' A pair of plates |5| are xed at their forward ends to the lower portion of each of the tool beams S3 and extend rearwardly therefrom, forming a bracket to which a planter furrow opener |52 is connected. The furrow opener |52 carries a yoke |53 extending rearwardly therefrom to which the lower end of a seed tube |54 is connected, as best shown in Figure l, the upper end of the seed tube being connected to a funnel |55 which receives seed from the associated hopper |35 under the control of the seed selecting mechanism associated therewith. A covering shovel frame |58 is pivoted, as at |59, to the lower portion of each of the tool beams B3 and comprises a pair of strap members |6| and |52 extending rearwardly along opposite sides of the seed tube and receiving a cross bar |63 to which covering shovels |54 are xed. A strap |65 is fixed at its lower ends to the straps Iii! -and |62 and extends over the upper edge of the plates |5|. The yoke |65 serves as a stop limiting the downward swinging movement of the covering frame |58 but permitting upward movement of the covering frame relative to the tool beam 53 and furrow opener |52 associated therewith. Normally, the covering shovel frame |58 floats when the associated tool beam 63 is in its lowered or operating position, but when the tool beam is raised, the covering shovel frame is also raised withit, due to the contact of the yoke |55 with the plates |5|.

The machine may be operated simply as a planter, with a planting unit 3 at each side thereof, as described above, but frequently the farmer will desire to distribute fertilizer at the same time that he plants, and to4 this end I provide a fertilizer attachment 4 for each of the planting attachments 3, as suggested in my prior patent identified above. Briey, each fertilizing unit includes a fertilizer hopper supported on a frame or base |1| which is, in turn, supported on the gear housing section |38 of the planting unit and on a brace |12 which is bolted at its upper end tothe fertilizer hopper bottom |1| and at its lower end to the outer member 35 of the associated draft frame, as indicated at |13. The fertilizer distributing mechanism is driven from the seeding mechanism by a chain |14 and associated parts, along the lines of the mechanism shown in said prior patent. A fertilizer feed tube |16 leads downwardly from the fertilizer hopper base and connects at its lower end to a fertilizer boot |11 (Figure '1) in the form of a collar having a forward lug |18 that is apertured and fastened by a bo-lt|19 to a fertilizer opener |8|. The latter member is in the general form of a plate bent, as shown at |82, to receive the boot |11. The upper part of the plate |8| is secured to the lower end of the sweep-beam 33 by bolts |34 or the like. To protect each fertilizer tube from trash and dirt coming over the sweep 6|), I provide curved shields |83` which are secured by bolts |59 and |81 to the sweep beam 63 generally above the fertilizer furrow opener |8|. Preferably, the fertilizer furrow opener |8i is attached to the outside of the lower end of the associated tool beam so as to deposit the fertilizer to one side of and slightly below the seed that subsequently is deposited behind the planter furrow opener |52. It will be noted that both the planter furrow openers |52 and the fertilizer furrow openers li are raised and lowered at the same time that the associated tool beams 63 are raised and lowered,

The operation of this machine is believed to be apparent from the above description.

Assuming that the machine is standing at the beginning of the rows to be planted, the operator swings both of the hand levers |01 forwardly. stressing the cushioning springs |24 thereby exerting a b-ias tending to force both of the sweeps into the ground as soon as the outfit starts up. As will be readily understood, sweep planters are commonly employed where the field has been previously bedded so that at planting'time the tools sweep off the tops of the beds and the planting is done on the flat sections immediately behind the sweeps. These ridges or beds sometimes get quite hard, in which case the springs |24 may yield in order to permit the sweeps momentarily to rise above such obstructions, but as soon as softer soil is encountered the springs immediately force the sweeps back to their proper operating level. rlhe planter furrow openers |52 open small furrows in the swept off lands and the seed is deposited therein by the seed selecting mechanism associated with each of the planting units 2. At the same time, the fertilizer is distributed to one side of and above the seed level by the fertilizer furrow openers |3|.

During the forward travel of the machine the pressure of the soil against the sweeps 6D, which usually are quite wide, is appreciable, but according to the principles of the present invention these forces are adequately sustained by the bearing of the tool beams against the shoulders |3| on the sector |21, The shoulders |3| are arcuate, and hence there is adequate bearing, regardless of depth adjustment. Moreover, the upper roller sustains its portion of the load due to the soil pressure against the lower end of the associated tool beam, yet each tool beam is adapted to have relatively free vertical movement under the control of the associated hand lever |01. The rotatable eccentric shafts 82 may be adjusted, as

pointed out above, first, to hold each tool beam' against its associated load bearing sector and, in the second place, to position the tool for the desired operation, and to take care of any wear that may occur.` When the sweeps are raised to their inoperative position, a small cam |80 on each hand lever |31 serves to disconnect the drive from each axle to its associated planter and fertilizer units. It will be observed that the units at one side are independent of the units at the other, and hence either planting unit may be raised while the other is left in operating position, which is an advantage when finishing up a field or when planting on terraced land when the rows are of different lengths. The particular construction of the implement frame, close to the tractor rear axle, provides a simple compact design which does not interfere with the easy handling of the tractor.

While I have shown and described above the preferred structure in which the principles of the present invention have been incorporated, it is to be understood that my invention is not to be limited to the particular details shown and described above, but that, in fact, widely different means may be employed in the practice of lth broader aspects of my invention. f

What I claim, therefore, and desire to secure by Letters Patent is:

1. In a planter, a movable tool beam, frame means with respect to which said tool beam is generally vertically movable, a planter furrow opener, bracket means` connected to the lower portion of said toolbeam and extending rearwardly therefrom for securing said planter furrow opener thereto, a floating coverer frame movably connected with said tool beam, stop means carried by said coverer frame and cooperating with said planter furrow opener bracket for limiting the downward movement of the coverer frame relative thereto, and means on saidv framev means for Yraising said tool beam, said planter furrow opener and said coverer frame.

2. In an agricultural implement, a draft frame, a generally vertically movable tool beam, and means for guiding the vertical movements of said tool beam in said draft frame, including a roller mounted for rotation on the draft frame and having portions engageable with the tool beam to limit the lateral movement thereof relative to the draft frame.

3. In an agricultural implement, a draft frame, a vertically shiftable tool beam comprising laterally spaced apart plates, and means for guiding said tool beam in said draft frame, including a pair of rollers engageable with the tool beam and having portions extending between the plates whereby said rollers serve to limit lateral movement of the tool beam relative to the draft frame.

4. In an agricultural implement, a draft frame, a vertically shiftable tool beam comprising laterally spaced apart plates, means serving as a pair of shafts supported by said draft frame, a roller mounted on each shaft, each roller having a ange section adapted to be disposed between said tool beam plates, means for holding said tool beam against said rollers, and means adjustably positioning said rollers on said shafts, the engagement of the roller flanges between said Atool beam plates limiting lateral movement of said tool beam.

5. The invention defined in claim 4, further characterized by a spacing bar disposed between the spaced apart plates of said tool beam, said spacing bar having teeth, and means for raising and lowering said tool beam comprising a toothed sector swingably mounted on said draft frame means and having teeth engageable with the teeth of said spacing member.

6. In an agricultural implement, means serving as a draft frame, a generally vertically reoiprocable tool beam carried thereby and comprising a pair of laterally spaced plates and a spacing bar therebetween, the latter having teeth, said spacing bar being narrower than said plates whereby the forward and rear edges of the latter overhang the spacing bar, means for guiding said tool beam comprising a plurality of rollers, each having a flange adapted to lie between the forward edges of said tool beam plates and shoulders with which said forward edges are adapted to engage, and means for raising and lowering said tool beam, comprising a sector swingably mounted on said draft frame means and having teeth engageable with the teeth of said spacing member, said sector having shoulders engageable with the rear edges of said tool beam plates and cooperating with said rollers for holding said tool beam against displacement.

'7. The combination with a tractor of an agricultural implement comprising a cross bar adapted to be secured to the tractor transversely thereof and forward of the rear axle housing of the tractor, a pair of draft frames, each secured at its forward portion to the outer end of the cross barV and at its rear portion to the rear axle housing' at thatv side of the tractor, a tool beam mounted for generallyverticalshifting move'- ment in the forward portion of each draft frame,

a rearwardly extending bracket fixed at its forward end to the lower portion of each tool beam, a planter furrow opener connected to each bracket, a floating coverer frame movably connested? with said: tool beam, stop means carried by sa-id coverer' frame and cooperating with said planter furrow opener bracket'for limiting the downward movement of the coverer frame relative thereto, a pair of 'seed selecting mechanisms, a pair of brackets supportingIv said seeding 'mechanisms,'respectively, on said rear axle housing, one at each side of the tractor, a seed tube leading downwardly from each seed selecting mechanism to the associated planter furrow opener, a pair of fertilizer distributing mechanisms, means supporting said mechanisms, respectively, on said seed selecting mechanisms, a fertilizer furrow opener carried at the lower end of each of said tool beams, and a fertilizer tube leading downwardly from each fertilizer distributing mechanism to the associated fertilizer furrow opener,

8. An agricultural implement comprising the combination with a tractor having a rear axle housing including laterally outwardly extending housing sections, of a cross bar fixed to the tractor transversely thereof and forward of said rear axle housing, a pair of frames fixed at their rear ends to said rear axle housing extensions, respectively, and fixed at their forward ends to the outer ends, respectively, of said cross bar, aV

generally vertically movable tool carrying member movably connected with each of said frames, a planter furrow opener and a fertilizer furrow opener xed to each of said tool carrying members, a floating coverer frame pivotally connected to said tool carrying member for vertical swinging movement relative thereto, stop means carried by said coverer frame and cooperating with stop means carried on one of said furrow openers for limiting the downward movement of the coverer frame relative thereto, a pair of seeding units and a pair of fertilizer distributing units supported by the tractorV generally above said frames, and seed tubes leading downwardly from said planting and fertilizer distributing units to the associated planter and fertilizer furrow openers.

9. In an agricultural implement, means serving as a frame, a generally vertically reciprocable tool beam, and means serving as a pair of guide members mounted for movement at opposite edges of said tool beam about axes spaced on opposite sides of said tool beam and eccentrically mounted means supporting one of said members and adjustable relative to the other to position the tool beam therebetween.

10. In an agricultural implement, means serving as a frame, a generally vertically reciprocable tool beam, a sector pivotally mounted on said frame and engageable with one edge of said tool beam, a pair of rollers engaging the opposite edge of said tool beam, shaft means upon which said rollers are mounted for movement, and eccentric means mounting each of said shafts on said frame means, one of said rollers being disposed generally opposite said sector and the adjustment of the associated shaft serving to hold the tool beam in engagement with said sector, the adjustment of the shaft for the other roller serving to change the position of said tool beam,

11. In a planter, a movable tool beam, frame means with respect to which said tool beam is generally vertically movable, a planter furrow opener, bracket means connected to the lower portion of said tool beam and extending rear- Wardly therefrom for securing said planter furrow opener thereto, a floating coverer frame pVotally connected with the lower end of said tool beam, cooperating stop means on said coverer frame and said planter furrow opener bracket for limiting the downward movement of the coverer framerelative thereto, and means on said frame means for raising said tool beam, planter furrow opener and coverer frame.

12. In an agricultural implement, a draft frame including a pair of laterally spaced members, a generally vertically movable tool beam disposed therebetween, laterally extending parts connecting said members, rockable members supported on said parts and having interengaging relation with said tool beam whereby Vertical movement of the latter is accommodated but lateral movement of the tool beam is limited, and means connecting said rockable members with said parts in different positions of lateral adjustment, whereby the lateral position of' said tool beam may be Varied.

CHARLES H. WHITE. 

